The antrat gastrin-producing G-cell: Biochemical and ultrastructural responses to feeding

Summary The effect of feeding on serum and antral immunoreactive gastrin (IRG) concentrations and on the ultrastructural appearance of antral G-cell granules has been examined. Serum and tissue IRG concentrations were dependent upon the length of time (12 or 48 h) the rats had been fasted before receiving food; IRG release was biphasic; the first peak was more pronounced in rats fasted 12h. Antral tissue IRG content increased significantly postprandially. An initial depletion of antral IRG was seen in rats fasted 48 h. Examination of the subcellular distribution of antral IRG revealed more of the 5–15 min postprandal total IRG in the cytoplasm and less in the secretory granules.Ultrastructurally, G-cells from fasting rats contained mainly electron-dense granules. Five minutes postprandially numerous electron-lucent granules were observed. More electron dense granules were apparent 60 and 120 min postprandially. Fasting rats had the highest G-cell granule density index; a significantly lower index was observed 5 min postprandially. Indices at 60 and 120 min postprandially increased but were still lower than the fasting index. These studies indicate that gastrin biosynthesis is necessary for food stimulated gastrin release and that the electron density of the G-cells' granules is not an accurate reflection of the G-cell gastrin content.The authors thank Elisabeth Bothe, Heidi Dörler and Heide Karl for technical assistance and the Deutsche Forschungsgemeinschaft (Bonn-Bad Godesberg, Grant Cr 20/7), the Atkinson Charitable Foundation and the Canadian MRC for financial support     

The life cycle of the gastrin granule

Summary The ultrastructure of gastrin cells in the rat antrum was analyzed with standardized and quantitative planimetric methods. Resting and active cells were compared. The gastrin cells were activated by removal of the acidproducing part of the stomach (fundectomy). As a result the serum gastrin concentrations were greatly elevated. Compared with gastrin cells in fasted control rats the gastrin cells in fundectomized rats were increased in number, contained fewer cytoplasmic granules, increased amount of endoplasmic reticulum, and an enlarged Golgi area.Generally, the secretory granules of the gastrin cell displayed a wide range of electron density from highly electron-dense to electron-lucent. They exhibited certain characteristic features: 1) Electron-dense granules made up a greater proportion of the total granule population in active gastrin cells than in resting cells. 2) Electron-dense granules were more frequent near the Golgi stacks than in the periphery of the cell. 3) Electron-dense granules were smaller in size than the electron-lucent granules; hence, small electron-dense granules probably represent young granules (progranules), while large, electron-lucent granules represent mature (old) granules. 4) Electron-dense granules invariably displayed a more intense immunoreactivity than electron-lucent granules.The gastrins are generated from a large precursor molecule. The posttranslational processing of this precursor is reflected in the gastrin-component pattern. The gastrin-component pattern in antral extracts of fundectomized and normal fasting rats differed in that the proportion of the gastrin-4-like component was reduced, whereas the gastrin-34-like component was increased in the fundectomized rats. The results suggest a greater proportion of small gastrin components in the mature granules than in the newly formed ones, presumably due to more extensive conversion of larger forms into smaller forms with a longer granule half-life. As a result gastrin-17-and gastrin-34-like components make up a larger proportion of total gastrin in active gastrin cells than in resting gastrin cells.The findings were presented at the Meeting of the European Gastro-Club, Erlangen, October 1980 (R. Håkanson, J.F. Rehfeld, M. Ekelund, and F. Sundler 1981)     

Antral G-cell in gastrin and gastrin-cholecystokinin knockout animals

The antral hormone gastrin is the key regulator of gastric acid secretion, mucosal growth and differentiation. Gastrin is synthesized in the endocrine G-cells in the antroduodenal mucosa. We have now examined the way in which the loss of gastrin alone or gastrin plus cholecystokinin (CCK) affects the antral G-cell. Immunohistochemistry, radioimmunoassay and quantitative real-time polymerase chain reaction techniques were employed to examine the expression of genes belonging to the G-cell secretory pathway in gastrin and gastrin-CCK knockout mice. Transmission electron microscopy was used to examine the ultrastructure of the G-cells. The number of G-cells increased but the secretory granules were few and abnormally small in the G-cells of both mouse models compared with wildtypes. Thus, gastrin is not necessary for the formation of G-cells as such but the lack of gastrin reduces the number and size of their secretory granules suggesting that gastrin is vital for the formation and/or maintenance of secretory granules in G-cells. This work was supported by the Novo Nordic Foundation (L.F.-H.) and Swedish Research Council (grant no. 4499; F.S. and N.W.).     

The effect of fixation conditions on the ultrastructural appearance of gastrin cell granules in the rat gastric pyloric antrum

The ultrastructural appearance of gastrin cell (G cell) granules was studied after different fixation procedures. When the pH of prefixation was varied there was greater preservation of the electron density of granule cores after acidic (pH 5.0 and 6.0) than after neutral or alkaline (pH 7.0 and 8.0) prefixation. Increasing duration of prefixation at pH 7.3 resulted in progressive loss of electron density of the granule core with swelling and occasional rupture of the limiting membrane. In tissues where most granules had been rendered electron lucent by fixation, those granules remaining dense cored were preferentially located close to the Golgi zone. These findings indicate that the electron density of G cell granules is profoundly affected by conditions of fixation, and that immature granules are more resistant to loss of core density than mature granules. They also suggest that the gastrin granule in vivo, like other polypeptide granules, may have a "solid", osmotically inactive core.     

Quantitative electron microscopic studies on the kinetics of secretory granules in G-cells

Summary Ultrastructural studies of secretory granules of rat antral G-cells and measurement of serum gastrin level were performed under the condition of fasting and administration of alkaline solution into the stomach. On electron micrographs, no qualitative difference was observed among those experimental groups. However, morphometrical analysis revealed significant quantitative differences. The population density of secretory granules of the rats treated once with alkali first increased and then decreased reaching that of the fasted group, while that of the repeatedly treated group remained nearly equal to the maximum value. The average sectioned surface area of secretory granules tended to decrease for 1.5h after the stimulation but the difference was not significant among those groups.From the results obtained at present, responding to chemical stimulation such as pH changes in the antrum, it seems probable that not only exocytosis but also migration of secretory granules from supra- and/or para-nuclear portion to the basal portion of the cell occurs rapidly in G-cells and that both these processes are inhibited immediately by antral acidification. Moreover, the present results apparently indicate that under the condition of no antral acidification G-cells have a capacity of secreting gastrin for a fairly long time, such as 4–8 h, responding to adequate stimulus. These findings are strongly suggestive of the existence of a capacious pool of granules in the supra- and/or para-nuclear cytoplasm or of fairly speedy production of secretory granules in the Golgi area.The author wishes to express thanks to Prof. R. Furihata, Department of Surgery, and Prof. T. Nagata, Department of Anatomy, Shinshu University School of Medicine, for their constant interest and guidance, and to Dr. F. Iida, Department of Surgery, who has followed the course of this work throughout     

Ciprofibrate stimulates the gastrin-producing cell by acting luminally on antral PPAR-alpha

The lipid-lowering drug ciprofibrate stimulates gastrin-producing cells in the rat stomach without lowering gastric acidity. Although suggested to be a luminal action on antral peroxisome proliferator-activated receptor-alpha (PPAR-alpha), the mechanism is still not fully elucidated. Gastric bypass was surgically prepared in male Sprague-Dawley rats. Gastric-bypassed and sham-operated rats were either given ciprofibrate (50 mg.kg(-1).day(-1) in methocel) or vehicle alone for 7 wk. PPAR-alpha knockout (KO) and wild-type (WT) mice were either given ciprofibrate (500 mg.kg(-1).day(-1) in methocel) or vehicle alone for 2 wk. The concentration of gastrin in blood was analyzed. Antral G cell density and gastrin mRNA abundance were determined by using immunostaining and Northern blot analysis. Ciprofibrate did not raise plasma gastrin or G cell density in gastric-bypassed rats, although the gastrin mRNA level was slightly increased. In contrast, ciprofibrate induced hypergastrinemia, a 50% increase in G cell density, and a threefold increase in gastrin mRNA in sham-operated rats. In PPAR-alpha KO mice, ciprofibrate did not raise G cell density or the gastrin mRNA level. The serum gastrin level was reduced by ciprofibrate. In WT mice, ciprofibrate induced hypergastrinemia, a doubling of G cell density, and a threefold increase in gastrin mRNA. Comparing animals dosed with vehicle only, PPAR-alpha KO mice had higher serum gastrin concentration than WT mice. We conclude that the main effects of ciprofibrate on G cells are mediated from the antrum lumen, and the mechanism is dependent on PPAR-alpha. The results indicate that PPAR-alpha may have a role in the physiological regulation of gastrin release.     

Isolation from porcine antral mucosa of a hexapeptide corresponding to the C-terminal sequence of gastrin

The present studies were undertaken to confirm reports of high concentrations of the C-terminal tetrapeptide of gastrin in hog antral mucosa. A method was developed whereby synthetic tetrapeptide added to boiling water extracts of hog antral mucosa could be purified to homogeneity by adsorption to Amberlite XAD2 resin, ion exchange chromatography on DEAE cellulose, and reverse phase HPLC. The product had the amino acid composition of gastrin tetrapeptide. When the same method was used on antral mucosa without prior addition of synthetic G4, several small peaks of material with C-terminal immunoreactivity could be found in DEAE column eluates but none could be unequivocally identified as the tetrapeptide. In the same column runs there was a relatively large peak of immunoreactivity eluting later than the tetrapeptide. This material was purified to homogeneity by HPLC and on the basis of its amino acid composition and sequence was identified as the C-terminal hexapeptide of gastrin.     

Gastrin and ACTH-like immunoreactivity occurs in two ultrastructurally distinct cell types of rat antropyloric mucosa

Summary The properties of endocrine cells of rat antropyloric mucosa, which simultaneously store both gastrin and ACTH-like immunoreactivity have been examined. In freely fed animals all or nearly all antral gastrin cells contain also large quantities of ACTH-like immunoreactivity. Following three days of fasting the gastrin cell content of ACTH-like peptides is drastically reduced, but increases rapidly upon refeeding of the starved animals for 30 min. At the electron microscopical level, the vast majority of cells storing both gastrin and ACTH-like peptides are identified as G cells but, in addition, a few, previously unrecognized, endocrine cells have also been found to store both types of peptides. The latter new cell type has tentatively been labelled the G_a cell. In normal freely fed animals the G cell is characterized by the occurrence of both electron-dense and electron-lucent granules. Correlative immunocytochemical and ultrastructural studies indicate that gastrin and the ACTH-like peptides are both stored in the cytoplasmic granules. Our results indicate that the gastrin cells release their content of ACTH-like peptides in response to fasting and that this release is blocked by refeeding. The differential release of two hormone-like substances from the same endocrine cell type is of great interest for analysis of mechanisms of peptide hormone release.     

Gastrin and somatostatin in the rat antrum. The effect of removal of acid-secreting mucosa

Female rats were subjected to operations aimed at reducing the amount of oxyntic gland mucosa draining its acid secretion to the antrum. The rats were provided either with Heidenhain or Pavlov pouches reducing the oxyntic mucosa draining its secretion to the antrum by about 50% or subjected to various degrees (75, 90 and 100%) of fundectomy. Ten weeks following surgery, plasma levels of gastrin and somatostatin were assayed. At the same time, antral mucosal content of gastrin and somatostatin was determined as well as the mucosal density of these hormone-producing cells. There was a relationship between the amount of acid-secreting mucosa removed and the ensuring plasma concentration of gastrin. Thus, a stepwise increase in plasma gastrin was found with the highest levels obtained in rats subjected to 90 or 100% fundectomy. The somatostatin concentration in plasma was reduced only in rats subjected to fundectomy with the most sustained decrease in animals in which all oxyntic gland mucosa had been removed. There was also a relationship between the amount of acid-secreting mucosa removed and the gastrin content of the antral mucosa. An inverse relationship seemed to exist between antral gastrin and somatostatin concentrations. However, a significant decrease in somatostatin concentration of the antral mucosa was seen only in rats subjected to a fundectomy. The number of gastrin cells in the antral mucosa was increased in fundectomized rats only, with the largest density seen in rats deprived of all oxyntic mucosa. A corresponding decrease in the number of somatostatin cells was noticed. Our results would suggest an apparent functional relationship between antral gastrin and somatostatin cells, where the antral acid load (or pH) appears to be the major factor of physiological significance.